CN113218649A

CN113218649A - Automatic door testing arrangement

Info

Publication number: CN113218649A
Application number: CN202110592458.0A
Authority: CN
Inventors: 朱俊磊; 黄天岐; 王星龙; 朱昊霁; 胡佳立; 顾呈路
Original assignee: Jiaxing Weikai Testing Technology Co ltd
Current assignee: Jiaxing Weikai Testing Technology Co ltd
Priority date: 2021-05-28
Filing date: 2021-05-28
Publication date: 2021-08-06

Abstract

The invention provides an automatic door testing device with high testing integration level. The utility model provides an automatic door testing arrangement, includes frame, vertical hinged door adaptation subassembly, translation door adaptation subassembly, test component and switch board, and the frame lateral part is frame construction, and vertical hinged door adaptation subassembly and translation door adaptation subassembly set up relatively and are connected with the frame lateral part respectively, and test component and switch board are located in the frame, test component and switch board electric connection. The invention can reduce the operation burden of operators, strengthen the integration degree of the equipment, improve the test efficiency and the utilization rate of test fields for the vertical hinged door and the sliding door, optimize the stability of the test equipment and eliminate potential safety hazards in the test process of the vertical hinged door and the sliding door.

Description

Automatic door testing arrangement

Technical Field

The invention relates to a testing device, in particular to an automatic door testing device.

Background

At present, no universal testing device specially aiming at automatic side hung doors and sliding doors exists in the market, and due to the large mass and size of the side hung door, the common testing device is complicated and complex in operation, labor-consuming in adjustment, low in integration degree and poor in installation stability; then ordinary device installation station size of a dimension is fixed, can't adapt to the installation of the different door of big small dimension to vertical hinged door, translation door testing arrangement are two solitary equipment, extravagant place space, and efficiency of software testing is low.

Disclosure of Invention

The invention aims to provide an automatic door testing device with high testing integration, which can improve the testing efficiency and the testing space utilization rate of various automatic doors such as a vertical hinged door, a sliding door and the like and solve the problems in the background technology.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the utility model provides an automatic door testing arrangement, includes frame, vertical hinged door adaptation subassembly, translation door adaptation subassembly, test component and switch board, and the frame lateral part is frame construction, and vertical hinged door adaptation subassembly and translation door adaptation subassembly set up relatively and are connected with the frame lateral part respectively, and test component and switch board are located in the frame, test component and switch board electric connection.

Preferably, vertical hinged door adaptation subassembly includes first adjust slide bar and second adjust the slide bar, and first adjust the slide bar and be vertical frame lateral part of locating, and the second adjusts the slide bar and is transversely to locate the frame lateral part, is equipped with sleeve and the loop bar that is used for adjusting second adjust slide bar length on the second adjust the slide bar, and the loop bar cover is located in the sleeve, and first adjust slide bar and second adjust slide bar both ends tip and all are equipped with the pulley, and the pulley meets with frame lateral part frame.

Preferably, the end parts of the two ends of the first adjusting slide rod and the second adjusting slide rod are respectively provided with a guide locking component, each guide locking component comprises a guide side plate and a locking piece, the guide side plates are arranged opposite to the frame side frame, the side surfaces, adjacent to the frame side frame, of the guide side plates are provided with guide blocks, the side surfaces, adjacent to the guide side plates, of the frame side frame are provided with guide grooves matched with the guide blocks, and gaps are reserved between the guide blocks and the guide grooves.

Preferably, the sliding door adaptation assembly comprises a third adjusting slide rod, the third adjusting slide rod is transversely arranged on the side portion of the rack and opposite to the side-hung door adaptation assembly, pulleys are arranged at the end portions of the two ends of the third adjusting slide rod, and the pulleys are connected with the frame on the side portion of the rack.

Preferably, the end parts of the two ends of the third adjusting slide bar are provided with guide locking parts, each guide locking part comprises a guide side plate and a locking piece, the guide side plates are arranged opposite to the frame side frame, the side surfaces, adjacent to the frame side frame, of the guide side plates are provided with guide blocks, the side surfaces, adjacent to the guide side plates, of the frame side frame are provided with guide grooves matched with the guide blocks, and gaps are reserved between the guide blocks and the guide grooves.

Preferably, the test component comprises a soft weight impact resistance test component, a vertical hinged door life test component, a sliding door life test component and a flatness test component, the soft weight impact resistance test component is arranged between the vertical hinged door adaptive component and the sliding door adaptive component, the flatness test component comprises a light source, an industrial camera and a camera support, the industrial camera and the light source are arranged on the camera support in a matched mode, and the industrial camera is electrically connected with the control cabinet.

Preferably, the service life testing component of the side hung door comprises a first clamping table, a first left clamping block, a first right clamping block, a push rod, a first thrust cylinder and a first cylinder support, wherein the first left clamping block and the first right clamping block are oppositely arranged on the first clamping table, one end of the push rod is fixedly connected with the first clamping table, the other end of the push rod is connected with the first thrust cylinder, the first thrust cylinder is a single-action linear cylinder, the first thrust cylinder is fixedly connected with the first cylinder support, and the first cylinder support is arranged in the middle of the frame.

Preferably, the vertical hinged door life test part further comprises a lower inclined rod, an adjusting rod and a blocking block, the lower inclined rod is arranged below the vertical hinged door adaptive assembly, one end of the lower inclined rod is fixedly connected to the bottom of the rack and forms an included angle with a side frame of the rack, the other end of the lower inclined rod is in threaded connection with the adjusting rod, and the end part of the adjusting rod is fixedly connected with the blocking block.

Preferably, the service life testing component of the sliding door comprises a second clamping table, a second left clamping block, a second right clamping block, a clamping table base, a clamping table slide rail, a force sensor, a sliding block, a guide rail, a second thrust cylinder and a second cylinder support, wherein the second left clamping block and the second right clamping block are oppositely arranged on the second clamping table, the second clamping table is slidably connected with the clamping table base, a clamping table slide groove used for being matched with the clamping table slide rail is arranged on the back surface of the second clamping table, the side part of the second clamping table is connected with the clamping table base through the force sensor, the clamping table slide rail is fixedly connected to the surface of the clamping table base, the clamping table base is fixedly connected to the sliding block, the sliding block is sleeved on the guide rail, one end of the sliding block is fixedly connected with the second thrust cylinder, the second thrust cylinder is a double-acting linear cylinder, the second thrust cylinder is fixedly connected to the second cylinder support, and the second cylinder support is arranged on the side part of the frame.

Preferably, the frame includes side frame, connecting rod, net rail, support foot rest and universal wheel, and the side frame is two and subtend setting at least, and flat-open door adaptation subassembly and translation door adaptation subassembly are located respectively on the solitary side frame, and a plurality of connecting rods are located between the adjacent side frame and the rigid coupling side frame, and the net rail is located between the adjacent side frame and is located the frame lateral surface, and support foot rest and universal wheel are located side frame bottom.

The invention has the beneficial effects that:

the automatic door testing device can reduce the operation burden of operators, enhance the equipment integration degree, improve the testing efficiency and the utilization rate of a testing field for a vertical hinged door and a sliding door, optimize the stability of testing equipment and eliminate potential safety hazards in the testing process of the vertical hinged door and the sliding door.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a schematic perspective view of example 1 of the present invention;

FIG. 2 is a schematic perspective view of example 2 of the present invention;

FIG. 3 is a schematic view of the structure of a second adjusting slide according to the present invention;

FIG. 4 is an enlarged view of a portion A of FIG. 2;

FIG. 5 is a schematic view of the construction of the pilot lock assembly of the present invention;

FIG. 6 is a schematic view of a vertical hinged door life test section of the present invention;

FIG. 7 is a schematic structural diagram of a life test part of the vertical hinged door of the present invention;

FIG. 8 is a schematic structural diagram of a sliding door life testing component of the present invention;

fig. 9 is a schematic view of the structure of the flatness test part of the present invention.

In the figure: 1. frame, 2, vertical hinged door adapter module, 3, sliding door adapter module, 4, test module, 5, control cabinet, 101, side frame, 102, connecting rod, 103, grid rail, 104, support component, 105, universal wheel, 106, limiting plate, 201, first adjusting slide rod, 202, second adjusting slide rod, 203, sleeve, 204, loop bar, 205, pulley, 206, guide side plate, 207, locking piece, 208, guide block, 209, guide way, 301, third adjusting slide rod, 401, soft weight impact resistance test component, 402, vertical hinged door life test component, 403, sliding door life test component, 404, flatness test component, 4021, first clamping platform, 4022, first left clamping platform, 4023, first right clamping platform, 4, push rod, 4025, first thrust cylinder, 4026, first cylinder bracket, 4027, lower diagonal rod, 4028, stop adjusting rod, 4029, 4031, second clamping platform, 4032. second left clamp splice, 4033, second right clamp splice, 4034, clamp stand base, 4035, clamp stand slide rail, 4036, force sensor, 4037, slider, 4038, guide rail, 4039, second thrust cylinder, 4040, second cylinder support, 4041, clamp stand spout, 4042, light source, 4043, industrial camera, 4044, camera support.

Detailed Description

The technical solution of the present invention is further specifically described below by way of specific examples in conjunction with the accompanying drawings. It is to be understood that the practice of the invention is not limited to the following examples, and that any variations and/or modifications may be made thereto without departing from the scope of the invention.

In the present invention, all parts and percentages are by weight, unless otherwise specified, and the equipment and materials used are commercially available or commonly used in the art. The methods in the following examples are conventional in the art unless otherwise specified. The components or devices in the following examples are, unless otherwise specified, standard parts or parts known to those skilled in the art, the structure and principle of which are known to those skilled in the art through technical manuals or through routine experimentation.

Example 1:

an automatic door testing arrangement as shown in figure 1, including frame 1, vertical hinged door adaptation subassembly 2, translation door adaptation subassembly 3, test component 4 and switch board 5, frame 1 lateral part is frame construction, and vertical hinged door adaptation subassembly 2 and translation door adaptation subassembly 3 set up relatively and are connected with frame 1 lateral part respectively, and on frame 1 was located to test component 4 and switch board 5, test component 4 and switch board 5 electric connection.

Vertical hinged door adaptation subassembly 2 and the 3 subtend of translation door adaptation subassembly set up in frame 1, can be suitable for fixed multiple specification model's vertical hinged door and translation door through adjusting the realization to the subassembly alone adaptation to vertical hinged door and translation door, and rethread switch board 5 control test subassembly 4 carries out relevant test to vertical hinged door and translation door respectively, alleviates testing personnel's operation burden, improves testing arrangement's integrated nature. This automatically-controlled door testing arrangement has improved efficiency of software testing and space usage by a wide margin, optimizes tester's operating time, and the adaptation subassembly of subtend setting forms two-way station, has strengthened the stability of equipment, gets rid of the focus skew and causes potential safety hazards such as turning on one's side.

Example 2:

the utility model provides an automatic door testing arrangement, includes frame 1, vertical hinged door adaptation subassembly 2, translation door adaptation subassembly 3, test component 4 and switch board 5, and frame 1 is whole to be long 4400mm, wide 2150mm, high 2700 mm's frame construction, and vertical hinged door adaptation subassembly 2 and translation door adaptation subassembly 3 set up relatively and are connected with 1 lateral part of frame respectively, and on frame 1 was located to test component 4 and switch board 5, test component 4 and 5 electric connection of switch board. Vertical hinged door adaptation subassembly 2 and sliding door adaptation subassembly 3 subtend set up in frame 1, can be suitable for fixed multiple specification model's vertical hinged door and sliding door through adjusting the subassembly and realize the independent adaptation to vertical hinged door and sliding door, improve the space usage by a wide margin and rate, and the adaptation subassembly of subtend setting forms two-way station, has strengthened the stability of equipment, gets rid of the focus skew and causes potential safety hazards such as turning on one's side.

As shown in fig. 2, the rack 1 includes side frames 101, a connecting rod 102, a grid fence 103, a supporting foot 104 and universal wheels 105, the side frames 101 are at least two and are arranged oppositely, and the vertical hinged door adapting unit 2 and the sliding door adapting unit 3 are respectively arranged on the separate side frames 101. A plurality of tie bars 102 are provided between the adjacent side frames 101 and fixedly secure the side frames 101 for reinforcing the connection strength of the side frames. The grid fence 103 is arranged between the adjacent side frames 101 and positioned on the outer side of the frame 1, and is used for sealing the test space and protecting the safety of the testers. A support foot 104 and universal wheels 105 are provided at the bottom of the side frame 101 for moving and fixing the position of the frame 1 relative to the ground as required.

Vertical hinged door adapter subassembly 2 includes first regulation slide bar 201 and second regulation slide bar 202, first regulation slide bar 201 is vertical and locates frame 1 lateral part, second regulation slide bar 202 is and transversely locates frame 1 lateral part, as shown in fig. 3, be equipped with sleeve 203 and loop bar 204 that are used for adjusting second regulation slide bar 202 length on the second regulation slide bar 202, the loop bar 204 cover is located in the sleeve 203, first regulation slide bar 201 and second regulation slide bar 202 both ends tip all are equipped with pulley 205, pulley 205 meets with frame 1 lateral part frame. Through adjusting the first adjusting slide bar 201 and the second adjusting slide bar 202 for the planar position of frame 1 lateral part, can form the door frame that adapts to not unidimensional vertical hinged door and fix the vertical hinged door, make things convenient for follow-up utilization test subassembly 4 to carry out each item test to the vertical hinged door.

As shown in fig. 4, the end portions of both ends of the first adjusting slide bar 201 and the second adjusting slide bar 202 are respectively provided with a guiding locking component, the guiding locking component includes a guiding side plate 206 and a locking piece 207, the guiding side plate 206 is arranged opposite to the side frame of the rack 1, and the side frame 101 is further provided with a limiting plate 106 for limiting the adjusting length of the second adjusting slide bar 202.

As shown in fig. 5, the side of the guide side plate 206 adjacent to the side frame of the rack 1 is provided with a guide block 208, the side of the side frame of the rack 1 adjacent to the guide side plate 206 is provided with a guide groove 209 engaged with the guide block 208, and a gap is provided between the guide block 208 and the guide groove 209. The guide block and the guide groove form a sliding fit relationship, so that the adjustment of the first adjusting slide bar 201 and the second adjusting slide bar 202 is more convenient and smooth, the locking piece 207 is a locking bolt, and the relative sliding between the guide block and the guide groove can be performed or stopped by loosening or screwing the locking bolt.

Translation door adaptation subassembly 3 includes third regulation slide bar 301, and third regulation slide bar 301 is transversely to be located frame 1 lateral part and relative with vertical hinged door adaptation subassembly 2, and third regulation slide bar 301 both ends tip is equipped with pulley 205, and pulley 205 meets with frame 1 lateral part frame. Through adjusting the position of the third adjusting slide bar 301 relative to the lateral plane of the frame 1, the door frame adapted to the translation doors with different sizes can be formed and the translation doors can be fixed, so that various tests can be conveniently carried out on the translation doors by the aid of the testing assembly 4 in the follow-up process.

The end parts of the two ends of the third adjusting slide bar 301 are provided with guiding locking components, the guiding locking components comprise a guiding side plate 206 and a locking piece 207, the guiding side plate 206 is arranged opposite to the side frame of the machine frame 1, the side surface of the guiding side plate 206, which is adjacent to the side frame of the machine frame 1, is provided with a guiding block 208, the side surface of the side frame of the machine frame 1, which is adjacent to the guiding side plate 206, is provided with a guiding groove 209 matched with the guiding block 208, and a gap is formed between the guiding block 208 and the guiding groove 209. The guide block and the guide groove form a sliding fit relationship, so that the adjustment of the third adjusting slide bar 301 is more convenient and smooth, the locking piece 207 is a locking bolt, and the relative sliding between the guide block and the guide groove can be performed or stopped by loosening or screwing the locking bolt.

This automatically-controlled door testing arrangement has improved efficiency of software testing and space usage by a wide margin, and vertical hinged door adaptation subassembly 2 and sliding door adaptation subassembly 3 are all adjustable and lock, adaptation in the vertical hinged door and the sliding door of multiple size specification, and the regulation of vertical hinged door adaptation subassembly 2 and sliding door adaptation subassembly 3 is convenient and smooth and easy, alleviates testing personnel's operation burden, improves efficiency of software testing by a wide margin.

Example 3:

an automatic door testing device, the technical scheme is the same as embodiment 2, the difference lies in:

the test assembly 4 comprises a soft weight impact resistance test part 401, a vertical hinged door life test part 402, a sliding door life test part 403 and a flatness test part 404.

The soft weight impact resistance testing assembly 401 is arranged between the vertical hinged door adapting assembly 2 and the sliding door adapting assembly 3 and used for performing soft weight impact resistance testing on the vertical hinged door and the sliding door, and the vertical hinged door and the sliding door can be conveniently tested without changing positions because the soft weight impact resistance testing assembly 401 is positioned between the vertical hinged door and the sliding door.

As shown in fig. 6, the side hung door life testing component 402 includes a first clamp 4021, a first left clamp 4022, a first right clamp 4023, a push rod 4024, a first thrust cylinder 4025 and a first cylinder support 4026, the first left clamp 4022 and the first right clamp 4023 are oppositely disposed on the first clamp 4021, one end of the push rod 4024 is fixedly connected to the first clamp 4021, the other end of the push rod 4024 is connected to the first thrust cylinder 4025, the first thrust cylinder 4025 is a single-acting linear cylinder, the first thrust cylinder 4025 is fixedly connected to the first cylinder support 4026, and the first cylinder support 4026 is disposed in the middle of the frame 1. First clamp 4021 is just to the handle of vertical hinged door, first left clamp 4022 and first right clamp 4023 on first clamp 4021 centre gripping vertical hinged door's handle, push rod 4024 is stretched forward by first thrust cylinder promotion, push rod 4024 is towards the door plant surface of being surveyed the horizontal hinged door, push rod 4024 drives first clamp to flat-open door handle application of force, make vertical hinged door rotatory formation action of opening the door along vertical hinged door lateral part, after the action of opening the door is in place to accomplish, first thrust cylinder 4025 drives the return of push rod 4024, accomplish the action of closing the door, first thrust cylinder 4025 connects switch board 5, open the door and close the door action number of times by switch board 5 record.

As shown in fig. 7, the vertical hinged door life testing component 402 further includes a lower slanting rod 4027, an adjusting rod 4028 and a blocking block 4029, the lower slanting rod 4027 is disposed below the vertical hinged door adapter 2, one end of the lower slanting rod 4027 is fixedly connected to the bottom of the frame 1 and forms an included angle with the side frame of the frame 1, the other end of the lower slanting rod 4027 is in threaded connection with the adjusting rod 4028, and the end of the adjusting rod 4028 is fixedly connected to the blocking block 4029. In order to completely simulate the influence of a door sucker or a door stopper on the service life of the vertical hinged door, a lower inclined rod 4027 is arranged at the bottom of the frame 1, the length is adjusted through an adjusting rod 4028 to realize the effects of the door sucker or the door stopper at different positions, and the blocking effect of the door sucker or the door stopper on the vertical hinged door is simulated through a blocking block 4029 at the end of the adjusting rod 4028.

As shown in fig. 8, the sliding door life testing component 403 includes a second clamping table 4031, a second left clamping block 4032, a second right clamping block 4033, a clamping table base 4034, a clamping table slide rail 4035, a force sensor 4036, a slider 4037, a guide rail 4038, a second thrust cylinder 4039 and a second cylinder support 4040, the second left clamping block 4032 and the second right clamping block 4033 are oppositely disposed on the second clamping table 4031, the second clamping table 4031 is slidably connected to the clamping table base 4034, a clamping table chute 4041 for fitting the clamping table slide rail 4035 is disposed on the back of the second clamping table 4031, the side of the second clamping table 4031 is connected to the clamping table base 4034 through the force sensor 4036, the clamping table 4035 is fixedly connected to the surface of the clamping table base 4034, the clamping table base 4034 is fixedly connected to the slider 4037, the slider 4038 is sleeved to the guide rail 4038, one end of the slider 4037 is fixedly connected to the second thrust cylinder 4039, the second thrust cylinder 4039 is a double-acting linear cylinder 403409, and the second thrust cylinder 4039 is fixedly connected to the second thrust cylinder support 40340, a second cylinder bracket 4040 is provided at the side of the frame 1. The second clamping table 4031 faces the middle position of the sliding door and is opposite to the handle of the sliding door, a second left clamping block 4032 and a second right clamping block 4033 on the second clamping table 4031 clamp the handle of the sliding door, a second thrust cylinder 4039 pushes a sliding block 4037 to move along a guide rail 4038, the sliding block 4037 drives a clamping table base 4034 to move, the clamping table base 4034 drives the second clamping table 4031 to move so that the sliding door moves to form a door opening action, when the door opening action is executed and reaches the displacement limit of the sliding door, the clamping table base 4034 stops moving, but the second clamping table 4031 still moves a small distance along the clamping table sliding rail 4035 under the thrust of the second thrust cylinder 4039, so that an acting force is generated on a force sensor 4036, the acting force is fed back to the control cabinet 5 by the force sensor 4035, when the acting force exceeds a set value, the control cabinet 5 controls the second thrust cylinder 4039 to execute a reverse thrust, the clamping table base 4034 drives the second clamping table 4031 to move in a reverse direction so that the door closing action is formed, the number of door opening and closing actions is recorded by the control cabinet 5.

As shown in fig. 9, the flatness testing part 404 includes a light source 4042, an industrial camera 4043 and a camera bracket 4044, the industrial camera 4043 and the light source 4042 are disposed on the camera bracket 4044, and the industrial camera 4043 is electrically connected to the control cabinet 5. The door plate of the vertical hinged door or the translation door is irradiated by the light source 4042, the irradiation light of the light source 4042 is reflected on the door plate, the parts with poor flatness, such as pits, fine cracks and the like, exist on the door plate, interference is formed among the reflections of the monochromatic light of the light source, and the abnormal feedback result of the reflected light is captured by the industrial camera 4043 and is transmitted to the control cabinet 5 for recording and alarming.

The above-described embodiments are only preferred embodiments of the present invention, and are not intended to limit the present invention in any way, and other variations and modifications may be made without departing from the spirit of the invention as set forth in the claims.

Claims

1. An automatic door testing arrangement which characterized in that: this automatically-controlled door testing arrangement includes frame (1), vertical hinged door adaptation subassembly (2), translation door adaptation subassembly (3), test component (4) and switch board (5), frame (1) lateral part is frame construction, vertical hinged door adaptation subassembly (2) and translation door adaptation subassembly (3) set up relatively and are connected with frame (1) lateral part respectively, on frame (1) was located in test component (4) and switch board (5), test component (4) and switch board (5) electric connection.

2. An automatic door testing device according to claim 1, characterized in that: vertical hinged door adaptation subassembly (2) are including first regulation slide bar (201) and second regulation slide bar (202), first regulation slide bar (201) are vertical frame (1) lateral part of locating, second regulation slide bar (202) are and transversely locate frame (1) lateral part, be equipped with sleeve (203) and loop bar (204) that are used for adjusting second regulation slide bar (202) length on second regulation slide bar (202), sleeve (203) are located to loop bar (204) cover, first regulation slide bar (201) and second regulation slide bar (202) both ends tip all are equipped with pulley (205), pulley (205) meet with frame (1) lateral part frame.

3. An automatic door testing device according to claim 2, characterized in that: the first adjusting slide bar (201) and the second adjusting slide bar (202) are provided with guide locking components at both ends, each guide locking component comprises a guide side plate (206) and a locking piece (207), the guide side plates (206) are arranged opposite to the side frame of the rack (1), guide blocks (208) are arranged on the side surfaces of the guide side plates (206) adjacent to the side frame of the rack (1), guide grooves (209) matched with the guide blocks (208) are arranged on the side surfaces of the side frame of the rack (1) adjacent to the guide side plates (206), and gaps are reserved between the guide blocks (208) and the guide grooves (209).

4. An automatic door testing device according to claim 1, characterized in that: translation door adaptation subassembly (3) are transversely located frame (1) lateral part and relative with vertical hinged door adaptation subassembly (2) including third regulation slide bar (301), and third regulation slide bar (301) both ends tip is equipped with pulley (205), and pulley (205) meet with frame (1) lateral part frame.

5. An automatic door testing device according to claim 4, characterized in that: the end parts of two ends of the third adjusting sliding rod (301) are provided with guide locking components, each guide locking component comprises a guide side plate (206) and a locking piece (207), the guide side plates (206) are arranged opposite to the side frame of the rack (1), the side surfaces, adjacent to the side frame of the rack (1), of the guide side plates (206) are provided with guide blocks (208), the side surfaces, adjacent to the guide side plates (206), of the side frame of the rack (1) are provided with guide grooves (209) matched with the guide blocks (208), and gaps are reserved between the guide blocks (208) and the guide grooves (209).

6. An automatic door testing device according to claim 1, characterized in that: test subassembly (4) are including resistant soft heavy object striking test part (401), vertical hinged door life test part (402), translation door life test part (403) and roughness test part (404), resistant soft heavy object striking test subassembly (401) are located between vertical hinged door adaptation subassembly (2) and translation door adaptation subassembly (3), roughness test part (404) include light source (4042), industry camera (4043) and camera support (4044), supporting the setting on camera support (4044) of industry camera (4043) and light source (4042), industry camera (4043) electric connection switch board (5).

7. An automatic door testing device according to claim 6, characterized in that: the flat-open door life test component (402) comprises a first clamp stand (4021), a first left clamp block (4022), a first right clamp block (4023), a push rod (4024), a first thrust cylinder (4025) and a first cylinder support (4026), the first left clamp block (4022) and the first right clamp block (4023) are oppositely arranged on the first clamp stand (4021), one end of the push rod (4024) is fixedly connected with the first clamp stand (4021), the other end of the push rod (4024) is connected with the first thrust cylinder (4025), the first thrust cylinder (4025) is a single-action linear cylinder, the first thrust cylinder (4025) is fixedly connected with the first cylinder support (4026), and the first cylinder support (4026) is arranged in the middle of the frame (1).

8. An automatic door testing device according to claim 7, characterized in that: vertical hinged door life test part (402) still includes down.

9. An automatic door testing device according to claim 6, characterized in that: the sliding door service life testing component (403) comprises a second clamping table (4031), a second left clamping block (4032), a second right clamping block (4033), a clamping table base (4034), a clamping table sliding rail (4035), a force sensor (4036), a sliding block (4037), a guide rail (4038), a second thrust cylinder (4039) and a second cylinder support (4040), wherein the second left clamping block (4032) and the second right clamping block (4033) are oppositely arranged on the second clamping table (4031), the second clamping table (4031) is in sliding connection with the clamping table base (4034), a clamping table sliding groove (4041) used for being matched with the clamping table sliding rail (4035) is formed in the back of the second clamping table (4031), the side portion of the second clamping table (4031) is connected with the clamping table base (4034) through the force sensor (4036), the clamping table sliding rail (4035) is arranged on the clamping table base (4034), the surface of the clamping table base (4037) is fixedly connected with the sliding block (4038), one end of the sliding block (4037) is fixedly connected with a second thrust cylinder (4039), the second thrust cylinder (4039) is a double-acting linear cylinder, the second thrust cylinder (4039) is fixedly connected with a second cylinder support (4040), and the second cylinder support (4040) is arranged on the side of the rack (1).

10. An automatic door testing device according to claim 1, characterized in that: frame (1) is including side frame (101), connecting rod (102), net rail (103), support foot rest (104) and universal wheel (105), side frame (101) are two and subtend setting at least, locate on solitary side frame (101) side-hung door adaptation subassembly (2) and translation door adaptation subassembly (3) respectively, a plurality of connecting rods (102) are located between adjacent side frame (101) and rigid coupling side frame (101), net rail (103) are located between adjacent side frame (101) and are located frame (1) lateral surface, support foot rest (104) and universal wheel (105) are located side frame (101) bottom.